by Ton Zijlstra

Tag Archives: friesland

Earlier this year I worked closely with the Frisian Library Service to create the project ‘Impact through connection, at school‘ together. At the core was my model of agency and a process I designed to guide a group towards exploring using both technology and methods to address a local issue. Today I had a conversation with Jeroen de Boer, of the FryskLab team, who had involved me in putting my idea to practice, at a primary school with a group of 10 year olds. We talked about what came after the project that took place in January to March.

The class and our team in front of the Frysklab truck last March

That’s when I received some awesome feedback.

“Your experimental process has basically become the way we work now during workshops and with groups”.

He also had heard from the teacher of the class we worked with that “the pupils said it was the best thing in the entire school year”.

The project was partly financed by the Dutch Royal Library and they indicated it was “one of the most inspiring projects they helped finance this year”.

That sounds like a great starting point to explore what else we can do together next year.

In the past weeks I’ve been part of a team working with a class of 10/11 year olds, as an experiment around increasing agency with 21st century digital skills, under the title Impact through Connection. In this I’m partnering with the NHL (university of applied sciences), and the regional Frisian library BSF, with some funding coming from the Dutch Royal Library as part of their Vision Mediasavviness 2016-2018 program. The experiment centered around helping the group to identify communal issues, situations they would like to change, and then to develop ideas and realize them. So that the group ‘gets’ that with various making and other machines and instruments, they have the agency, have the power, to change their surroundings for themselves as a group.

Since January we’ve been meeting with the school’s team, and then weekly 6 times with the class of 22 children. It was loads of fun, not just for the kids involved. The highest compliment we received was that one of them said “this is more fun than the annual school trip”. Another remarked feeling sorry that all other classes had to work, while they were making stuff. We pointed out that they too were working very hard, but differently, and that having fun does not mean you’re not working.

Yesterday we’ve had the final session, ending with presentations of the things they built (such as phone covers for phone-types that aren’t otherwise available, a way to look under water, a class room MP3 player for audiobooks, games, computer controlled door locks, a candy machine, a robot to counteract bullying, websites documenting the process, and a money system for the school).

Afterwards I returned home and jotted down a list of observations to reflect on. We plan to do a similar experiment with a group of adults from the same neighborhood as the school serves, as well as will aim to replicate it for other school classes.

First, for context, the order of the sessions we did.
Session 1: group discussion about the children’s environment, things they would like to change, ideas for making things they had. Resulted in a ‘wall of ideas’, ordered from ‘looks less hard to do’, to ‘looks harder to do’.
Session 2: getting to know maker machines (3d printers, laser cutters, electronics, etc.), by bringing the machines to the class room, and parking the Frysklab Mobile FabLab out front.
Session 3: getting to know programming (using Micro:bits, all the children got one to keep)
Session 4: Diving deeper in to the idea now they have a notion of what is possible with the machines and material available, using a canvas to think about what the idea solves, whom it is for, what part of the idea to zoom in on, and who in their own social network could help them realize it.
Session 5: building prototypes (again with Frysklab parked outside)
Session 6: building prototypes and presenting results

In non-specific order here are some of the raw observations I made in the past weeks, that we can further elaborate and chew on, to create the next iteration of this experiment.

On the process (time, time time!):

The school team school was extremely supportive, and the teacher showed enormous flexibility. She rearranged her normal class schedule extensively to ensure we had more time than we thought possible.

The process we designed worked, but we could have spent more time and attention to several parts of it.

The process worked in the sense that we got everyone to make things, and have them dive deep beyond the initial magic and wow of 3d-printing and laser cutters

We asked them to map out the groups they belonged to, and both their own and their classmate’s skills. We spent too little time to do that properly and to use it fruitfully in the process afterwards

We didn’t succeed in our original plan to bring the group to defining one or a few projects that were less person and more group focussed (except for the kid that designed a currency system for the school), and then select parts of that on which individuals or small groups could work. It seems we would need to spend more effort in the run-up to the cycle of sessions to do that properly

Working with a pool of people with specific domain knowledge that we could bring in when needed worked very well and strengthened the results

I used a canvas to help the group get to better defined projects, and while it worked, the steps in filling the canvas could have been better defined. Now some raced ahead, without key information for the next bits, while I worked with others to take the first few steps

The overall process hasn’t become clear to the group as a distinct shape, I think. Although that would enable them to design their own projects on their own (more on that later)

Having the children present their work to the group at the end was fun, useful and a good way to bring everything together again

Two filled out canvases

On our team and the teacher

When we look at Making, we see how it is different from what was before, how all of a sudden ‘anyone’ can do things that took specialised machines and factories earlier, and how that changes the dynamics of it all. The children don’t see it that way, because they don’t have that history. Although that history is the source of our own fascination it is not the fascination you can confer to the children, as it is by definition a meaningless comparison to them.

Our large pool of people to help out was necessary to be able to provide adequate guidance. Even if adding 5-7 adults to a classroom feels like a lot.

More clearly articulating to the group which roles team members help might be helpful (e.g. I don’t know my way around the Frysklab truck, but still got asked a lot by the kids about it. I solved it by saying, I don’t know either, let’s go find out together)

The teacher could likely have a more defined role during the sessions (other than trying to keep a semblance of order), maybe also in building the bridges to other parts of the curriculum in the run-up?

We had several preparatory meetings with the teacher and others inthe school

There’s a lot I can’t do (too little experience with the machines to have internalized all routines, my own thinking is often too little visual and too much textual) It’s partly a pro as well (as it makes it easy for me to led the child lead the thinking proces, as I don’t have answers either)

At work in the FabLab truck, and 3d printers chugging away

The path the children took

Large differences within the group, also in self-image, means very different speeds within the process (‘I don’t think there’s something I am really really good at’)

Finding out that the path from your fantasy to making it tangible reality contains disappointments (what is possible, what is realistic within time given, how does a result compare to what you imagined at first), and finding or not finding ways to surmount that disappointment

Not everyone was able to visualize from their ideas towards the parts that make up the whole, or different aspects and steps

Enormous richness in ideas, but sometimes very narrowly focussed

It is very important to build a bridge from the classroom project to at home (“can I take this home” “but this is something I can’t do at home”). Part of the empowerment lies here. (Also as they proudly told and partly mobilized their parents for their ideas as well)

They willingly left us their projects so the Frysklab team could show them on a national conference the day after the last session, after promising to return their projects soon

Visible impact and affect during the sessions

Really listening to ideas and trying think them through, remembering what they said about it 3 weeks earlier, is a boost in empowerment for the kids in itself

Children don’t have as many experience based associations and ‘hooks’ to listen to our stories, so examples are needed

Examples from ‘nearby’, such as the kid with a 3d printed hand prosthetic living in the neighbouring province are therefore very valuable. We need to collect many more of them.

Such appealing examples may also aid in bringing across the process and thinking model itself better

Giving everyone a Micro:bit during the process therefore turned Jeroen into a hero of everyone in the room (loud cheers!)

Taking things home is a source of pride

Other classes were jealous of this group

The group quickly build attachment to the team (where is Ton? Cheers when a team member arrives a bit late)

Concepts like ‘prototyping’ are hard, and zooming in on something small and maintaining attention is too

Some of the created projects

The making itself

Robots! At first almost everyone wanted to build robots (to clean their room e.g.)

Things for yourself, versus things for the group. As said, before the making we likely need to build a ‘ramp’ towards more communal oriented projects

The realization for the chidren that things take time, can be complicated. That it isn’t magic but actual work

Software is equated to computers and phones. That things that don’t look like computers can be programmed, and that hard- and software are getting merged more and more (cars, IoT, robots) takes time to land

Likewise ‘making’ is connected to hardware, objects and software mostly. Creating ‘systems’ or ‘processes’ is a novel concept (except for the currency making project). Challenging systems is like a fish changing the water it swims in.

Similarly for most, their actual environment (the street, the neighborhood, city etc, are also like ‘water’ and mostly perceived as immutable. Measuring things in your environment and acting on it was notably absent in the ideas

The attention span needed to zoom in on a small part at a deep enough level to be able to apply it is pretty hard to maintain

Building websites to document projects is an essential part the children came up with themselves. Needs to become a standard component of the process.

Presenting results

Other circumstantial elements

Searching online for examples and useful material (like code snippets) can be a stronger part of the process (as answer to the frequent question “but how can I do that?”). Means paying attention to searching skills.

The mentioned websites can contribute to that by collecting links to resources etc.

Data collections didn’t play a role (likely as there were no ‘sensing’ projects), but could be a resource in other iterations

E-mail is not available to all children (not allowed to, don’t want to give out their parents e-mail), but often needed to register for online coding and making tools, or to create a website. Providing throw-away e-mails, like I personally do with 33Mail, is something to add to our toolkit.

In the 1980’s my dad spent many days searching paper archives to reconstruct his paternal family tree. I am going through some of his archives now that we are dissolving my parents household. What was hard work then, now after digitisation, is often available online.

Regional archives have done a lot of work to digitize records of birth, marriage, and death, and make them searchable online. Through the website allefriezen.nl (all Frisians dot nl) one can search for documents by name. The picture below (archive source) is the registration of our family name on 20 February 1812. This was under Napoleonic rule when France had annexed the Netherlands (1810-1814) and family names became compulsory.

Popke Jacobs the great-grandfather of my grandfather registered our name in the “Municipality Ureterp, Canton Beetsterzwaag, Arondissement Heerenveen, Departement Vriesland” (sic). It is weird to see those French government structures in the document.

The full text reads:

“Before us Maire (mayor) of the Municipality Ureterp, Canton Beetsterzwaag, Arondissement Heerenveen, Departement Vriesland, having appeared Popke Jacobs, living in Ureterp, has himself declared that he adopts the name of Zijlstra as family name and has the following number of sons and daughters, to know, Jakob, old 18 years, living in Grouw. Klaas old ten years, Jan old one in his second year, both living in Ureterp, Geeske old 17 years, living in Drachten, Aukjen old 15 years living on the Groote Gast and Trijntje old 13 years living in Ureterp and has signed this with us 20 February 1812.”

It is interesting to note that my ancestor signed his own name, so he was literate. Others registered in the same document signed with a shaky “X”. His occupation was listed as “worker”, meaning he was a hired hand and day laborer.

About

Weblog since 2002 by Ton Zijlstra.
European citizen in a networked world. Based in the Netherlands, living in Europe, working globally. There are no Others. There is just me and many of you.

I write about how our digital and networked world changes how we work, learn, decide and organize. I explore the tools and strategies that help us navigate the networked world.
I am passionate about increasing people's ability to act (knowledge), and their ability to change (learning). Key-words: open data, open government, fablabs, making, complexity, agency.